Asiana pilot worried about landing before crash in San Francisco

An Asiana Airlines Boeing 777 crash-landed at San Francisco Airport on July 6, 2013. Three schoolgirls from China died and dozens others were injured. The plane was carrying 307 people.

Dan Weikel and Rich Simon

WASHINGTON -- The captain flying the Asiana Airlines flight that crashed in San Francisco in July told accident investigators the approach for landing was "very stressful" and he thought the plane's automatic throttle was always working, according to a federal report released Wednesday.

Lee Kang Kuk, 46, who was landing at San Francisco International Airport for the first time, told National Transportation Safety Board officials in an interview the visual approach was difficult to perform in the large Boeing 777 because the runway's light system that helps guide pilots was out of service.

According to the NTSB report, Lee said he was "very concerned" about his ability to bring the plane in without the lights and instrument landing systems. Other pilots in the cockpit told investigators Lee appeared nervous.

The report was released as the NTSB opened a day-long hearing in Washington to explore the crash that killed three passengers and injured 180 on July 6.

Asiana Flight 214 struck a seawall and slammed into the runway, severing its tail section and scattering wreckage across the pavement. The initial investigation indicated the pilots failed to maintain the minimum speed and altitude required for a safe landing.

The hearing will provide the NTSB detailed information about the impact of automated flights systems on human performance, the training of Asiana pilots, aircraft cabin safety and the emergency response by public safety agencies.

The board, however, will make no formal conclusions about the cause of the crash.

Board Chairwoman Deborah Hersman said the NTSB investigation could result in recommendations to improve aircraft design and pilot training.

Though Lee said he thought the automatic throttles were working, investigators found the device had been shifted from "thrust" mode to "hold" mode during the approach and no longer controlled the airspeed.